Journal article
CRISPR-Cas defense system and potential prophages in cyanobacteria associated with the coral black band disease
P Buerger, EM Wood-Charlson, KD Weynberg, BL Willis, MJH van Oppen
Frontiers in Microbiology | FRONTIERS MEDIA SA | Published : 2016
Abstract
Understanding how pathogens maintain their virulence is critical to developing tools to mitigate disease in animal populations. We sequenced and assembled the first draft genome of Roseofilum reptotaenium AO1, the dominant cyanobacterium underlying pathogenicity of the virulent coral black band disease (BBD), and analyzed parts of the BBD-associated Geitlerinema sp. BBD_1991 genome in silico. Both cyanobacteria are equipped with an adaptive, heritable clustered regularly interspaced short palindromic repeats (CRISPR)-Cas defense system type I-D and have potential virulence genes located within several prophage regions. The defense system helps to prevent infection by viruses and mobile genet..
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Awarded by Australian Research Council
Funding Acknowledgements
We thank Yui Sato and David Bourne for their support in the laboratory and in the field; Patrick Laffy for bioinformatics discussions and the Australian Nectar Research Cloud for access to computational resources. We acknowledge funding from AIMS@JCU (#17625) and the Australian Research Council (Future Fellowship #FT100100088 to MvO and SuperScience Fellowship #FS110200034 to KW).